Multi-band patch antenna

The invention claimed is: 1. A multi-band patch antenna comprising: a base substrate through which a first through-hole and a second through-hole are formed; an upper patch disposed on a top surface of the base substrate; a lower patch disposed on a bottom surface of the base substrate; an inner conductor disposed on an inner wall surface of the first through-hole to electrically connect the upper patch to the lower patch; an antenna pin extending through the first through-hole, and having an end disposed above the base substrate; and a first feed pin extending through the second through-hole, and wherein the antenna pin has an insulating layer formed on a region thereof, the region being disposed in the first through-hole. 2. The multi-band patch antenna of claim 1 , wherein the antenna pin extends through a center axis of the base substrate. 3. The multi-band patch antenna of claim 2 , wherein the center axis is a virtual axis disposed on a line that connects a center point of the top surface of the base substrate to a center point of the bottom surface of the base substrate. 4. The multi-band patch antenna of claim 1 , wherein the first through-hole extends through the center axis of the base substrate, and the second through-hole extends through the base substrate at a position spaced apart from the center axis of the base substrate. 5. The multi-band patch antenna of claim 1 , wherein the inner conductor is formed along the inner wall surface of the first through-hole, and forms a hole through which the antenna pin extends, and the antenna pin is spaced apart from the inner conductor. 6. The multi-band patch antenna of claim 1 , wherein a portion of the antenna pin, exposed from a top of the base substrate, has a length of 10 mm or more. 7. The multi-band patch antenna of claim 1 , wherein the antenna pin has one or more bent portions formed on a region thereof, the region being exposed from a top of the base substrate. 8. The multi-band patch antenna of claim 1 , wherein an end of the antenna pin, exposed from a top of the base substrate, is disposed at a position spaced apart from the center axis of the base substrate. 9. The multi-band patch antenna of claim 1 , further comprising a metal plate disposed above the base substrate, wherein the metal plate is coupled to the end of the antenna pin, exposed from a top of the base substrate. 10. The multi-band patch antenna of claim 9 , wherein the end of the antenna pin is coupled to a position spaced apart from the center axis of the metal plate. 11. The multi-band patch antenna of claim 9 , wherein the metal plate is formed in a plate shape with a top surface, a bottom surface, and a side surface, and the end of the antenna pin is coupled to the side surface of the metal plate. 12. The multi-band patch antenna of claim 1 , further comprising a second feed pin extending through the base substrate, wherein a virtual line connecting the first feed pin and the center point of the antenna pin and a virtual line connecting the second feed pin and the center point of the antenna pin are formed at a preset angle of 90 degrees therebetween, while crossing each other. 13. The multi-band patch antenna of claim 12 , further comprising: a third feed pin disposed so as to face the first feed pin with the antenna pin interposed therebetween, and extending through the base substrate; and a fourth feed pin disposed so as to face the second feed pin with the antenna pin interposed therebetween, and extending through the base substrate, wherein a virtual line connecting the first feed pin and the center point of the antenna pin and a virtual line connecting the third feed pin and the center point of the antenna pin are formed at a preset angle of 180 degrees therebetween, and the virtual line connecting the first feed pin and the center point of the antenna pin and a virtual line connecting the fourth feed pin and the center point of the antenna pin are formed at a preset angle of 270 degrees therebetween, while crossing each other. 14. The multi-band patch antenna of claim 1 , further comprising: another base substrate interposed between the base substrate and the lower patch; and a radiation patch interposed between the bottom surface of the base substrate and the top surface of the another base substrate, wherein the first and second through-holes extend through the base substrate and the another base substrate. 15. The multi-band patch antenna of claim 14 , further comprising a second feed pin disposed on a virtual straight line connecting the first feed pin and the center point of the antenna pin, and extending through the base substrate and the another base substrate, wherein a virtual straight line connecting the first feed pin and the center point of the antenna pin and a virtual straight line connecting the second feed pin and the center point of the antenna pin are formed at a preset angle of 90 degrees therebetween, while crossing each other. 16. The multi-band patch antenna of claim 15 , further comprising: a third feed pin disposed so as to face the first feed pin with the antenna pin interposed therebetween, and extending through the base substrate and the another base substrate; and a fourth feed pin disposed so as to face the second feed pin with the antenna pin interposed therebetween, and extending through the base substrate and the another base substrate, wherein a virtual line connecting the first feed pin and the center point of the antenna pin and a virtual line connecting the third feed pin and the center point of the antenna pin are formed at a preset angle of 180 degrees therebetween, and the virtual line connecting the first feed pin and the center point of the antenna pin and a virtual line connecting the fourth feed pin and the center point of the antenna pin are formed at a preset angle of 270 degrees therebetween, while crossing each other. 17. The multi-band patch antenna of claim 14 , further comprising a second feed pin disposed on a virtual straight line connecting the first feed pin and the center point of the antenna pin, and extending through the another base substrate, wherein the virtual straight line connecting the first feed pin and the center point of the antenna pin and a virtual straight line connecting the second feed pin and the center point of the antenna pin are formed at a preset angle of 180 degrees therebetween. 18. The multi-band patch antenna of claim 17 , further comprising: a third feed pin spaced apart from the first and second feed pins, and extending through the base substrate and the another base substrate; and a fourth feed pin spaced apart from the first and second feed pins, disposed so as to face the third feed pin with the antenna pin interposed therebetween, and extending through the another base substrate, wherein a virtual line connecting the third feed pin and the center point of the antenna pin and a virtual line connecting the fourth feed pin and the center point of the antenna pin are formed at a preset angle of 180 degrees therebetween. 19. The multi-band patch antenna of claim 18 , wherein a virtual line connecting the first feed pin and the center point of the antenna pin and a virtual line connecting the third feed pin and the center point of the antenna pin are formed at a preset angle of 90 degrees therebetween, while crossing each other, wherein a virtual line connecting the second feed pin and the center point of the antenna pin and a virtual line connecting the fourth feed pin and the cent